SU809662A1 - Device for transmitting and receiving two signals f colour image in standard television communication channel - Google Patents

Description

The invention relates to television and can be used in application, broadcast and stereo color TV.

A device for transmitting and receiving two color image signals in one standard television channel is known, containing on the transmission side a first signal switch, the first video of which is connected to the first input of the second signal switch, the second input of which is connected to the output of sum. Tr. and also containing on the receiving side the first switch, the first output of which is connected to the series-connected band-pass filter, first. The second output of the second switch is connected to the first memory unit serially connected to the first modulator, and the second output to the serially connected second memory unit and second modulator, and to the control inputs of the first and The second memory block is connected to the corresponding first and second outputs of the control unit, also containing the third switch, the first one,

The second and third outputs of which are connected to the corresponding inputs of the first adder, and the fourth, fifth and sixth outputs - to the corresponding inputs of the second adder, and the frame input pulses ij are fed to the control input of the third switchboard.

However, the known device is complicated and has insufficient accuracy of transmission and reproduction of color image signals.

The purpose of the invention is to harden the device by reducing the number of memory blocks and improving the accuracy of transmission and reproduction of color image signals.

The above purpose is achieved in that, in a known device, the first and second Low-pass filters and the modulator are entered on the transmitting side, the first output of the first signal switch being connected to the first input of the adder via the first low-pass filter, and the second output to the second input of the adder the second low-pass filter and the modulator are connected in series, while the control inputs of the first and second switches are designed to supply, respectively, frame and line frequency pulses, and on the receiving side The upper filter, the low-pass filter, the first, second and third delay lines, the fourth switch and the second module t-op are entered, the output of the high-pass filter is directly connected to the first input of the first switch, and the second input to the second input the switch is connected to the first input of the third switch through the second demodulator while the output of the low-pass filter is connected to the input of the fourth switch, and the second input of the fourth switch is connected to the inputs of the upper filter and These frequencies, the outputs of the first and second modules are connected directly to the corresponding third and fourth inputs of the fourth switch, and these outputs are connected to the second and third inputs of the third switch respectively via the second and third delay lines, the first, second and third outputs of the fourth switch are connected respectively with the fourth, fifth, and sixth inputs of the third switch, and the control inputs of the first, fourth, and second switches are designed to supply, respectively, pulses st internal and vertical frequencies

The drawing shows a structural electrical circuit of the proposed device.

The device for transmitting and receiving two color image signals in one standard television channel on the transmitting side contains the first switch 1 of signals, the first filter 2 of the lower frequencies, the modulator 3, the second filter 4 of the lower frequencies, the adder 5, the second switch of signals 6, and receiving side high-pass filter 7, first delay line 8, first switch 9, band-pass filter 10, first demodulator 11, second switch 12, first 13 and second 14 memory blocks, control unit 15, first 16 and second 17 module tori second 18 and third 19 delay lines, low-pass filter 20, third 21 and fourth 22 switches, first 23 and second 24 adders and second demodulator 2 The device operates as follows.

The color television (CG) signals of the first and second programs are received at the first and second inputs of the first switch 1, which alternately switches the video signals of both programs at a frame rate. The video signal of one of the programs from the first output of the first switch 1 is limited in band by the first low-pass filter 2, and the capacitance of the signal of this program is extracted, which is transferred to the high-frequency range of the television signal using modulator 3. The frequency-limited frequency component of one program, transferred to the subcarrier frequency, in adder 5 is added to the frequency-limited capacitance component of another program, which is obtained using the second lower filter 4, connected to the second output of the first switch 1, obtained at the output of adder 5 the signal is fed to the second input of the second switch 6, which commutes signals with a line frequency. The first input of the second switch 6 receives the full CT signal of one of the programs. At the output of the second switch 6, the full DT signal of one of nporpaiuiM or a video signal is received from line to line, in which the frequency-limited frequency component of the same program is transmitted in the lower region of the video spectrum, and the frequency-limited frequency signal transferred to the subcarrier frequency another program.

On the receiving side, the video signal compressed by two programs is fed to four parallel processing channels (not marked in the drawing). in the first channel, the signal passes through the fourth 22 and third 21 switches and goes to the corresponding inputs of the first 23 and second 24 adders. The fourth switch 22 operates at the line rate, the third switch 21 at the frame rate. Their work is synchronized with the work of the first 1 and second 6 switches, therefore in the corresponding lines the full CT signal of the first program without any conversions is fed to the input of the first adder 23, and the full CT signal of the second program to the input of the second adder 24.

Claims (1)

In the second channel, the compressed signal passes through the filter 20, the fourth 22, and the third 21 switches and enters the corresponding inputs of the first 23 and second 24 adders. In this case, the frequency-limited component of one of the programs is extracted from the compressed signal: at the input of the first adder 23 — the first nporpaMivM, at the input of the second adder 24 — the second program. At the same time, using a filter 7 in the third processing channel, a high-frequency component is extracted from the compressed video signal, carrying information about the color difference signal at the subcarrier frequency and the frequency-limited component of one of the programs transferred to the subcarrier frequency. Using the first line 8 delays and the first switch 9 at the first output, we obtain on the subcarrier frequency the color difference signals of the first and second programs divided by rows. After the bandpass filter 10 and the first demodulator 11, we obtain color difference video signals. Using the second CC1 switch, operating at a frame rate, it is the separation of the color difference signals of both programs. The color difference signals of the first program are written to the first memory block 13, the color difference signals of the second program are written to the second block 14, the control of the write mode, reading and erasing in blocks 13 and 14 is carried out using the power of block 15. When reading information from the blocks 13 and 14, we obtain a sequence of color-difference video sequences alternating from line to line, respectively, of the first and second programs. These video sequences using the first 16 and second 17 modulators are transferred to the subcarrier frequency in the high-frequency region of the video spectrum of the full CT signal. Using the second 18 and third 19 delay lines, these sequences are delayed for the duration of one line. The color difference signals from the outputs of the modulators 16 and 17 pass through the fourth switch 22 and the fifth sixth inputs of the third switch 2 To the second and third inputs of the third switch 21 color difference signals are provided from the outputs of the second 18 and third 19 lines. At the same time, on the respective outputs of the third switch 21, color difference signals appear, respectively, of the first and. of the second program, which arrive at the corresponding inputs of adders 23 and 24. In the fourth processing channel at the second output of the first switch 9, we get in each frame alternating from line to line frequency-limited and transferred to the subcarrier frequency frequency signal of one of the programs directly and delayed by the duration single line. After the second demodulator 25, which allocates the frequency-limited brightness component of the full video signal of one of the programs, this component passes through the third switch 21 and enters the corresponding inputs of the first 23 or second 24 adders. The full CT signal of the first program is formed at the output of the first adder. 23 as a result of adding the three components of the signal to the inputs of the first adder 23. The output of the second adder 24 produces in a similar way the full CT signal of the second program. The proposed device makes it possible to significantly improve the accuracy of signal transmission of two programs, especially when transmitting images of moving objects. The invention of the device for transmitting and receiving two color image signals in one standard television channel, contains on the transmitter side a first signal switch, the first output of which is connected to the first input of the second signal switch, the second input of which is connected to the output of oyiuiMaTopa, and also containing the receiving side, the first switch, the first output of which is connected to the serially connected bandpass filter, the first demodulator and the second switch, the first output of the second com the mutator is connected to the serially connected first memory unit and the first modulator, and the second output of the second switch is connected to the serially connected second memory unit and the second modulator, while the corresponding first and second memory units are connected to the control inputs of the first and second memory units the second outputs of the control unit, which also contains the third switch, the first, second and third outputs of which are connected to the corresponding inputs of the first adder, and the fourth, fifth and sixth outputs to the corresponding inputs of the V an adder, and the control input of the third switch has frame frequency pulses, characterized in that, in order to simplify the device by reducing the number of memory blocks and improving the accuracy of transmitting and reproducing color image signals, the first and second filters are entered on the transmitting side frequency and modulator, the first output of the first signal switch is also connected to the first input of the adder via the first low-pass filter, and the second output - to the second input of the adder via a follower .ns the second lowpass filter and the modulator are turned on, while the control inputs of the first and second switches are designed to supply frame and line frequency pulses, respectively, and a high-pass filter, a low-pass filter, the first, second third Delay / , the fourth switch and the second demodulator, the output of the high-pass filter is connected to the first input of the first switch directly, and from the inlet to the input through the first delay line, and the second output of the first switch is connected to the first input of the third switch is via the second de modulator, the output of the low-pass filter is connected to the first input of the fourth switch, and the second input of the fourth switch with the inputs of high-pass and low-pass filters, the outputs of the first and second modulators are connected directly to the corresponding third and to the fourth inputs of the fourth switch and to the second and third inputs of the third switch, these outputs are connected via the second and third delay lines, respectively, the first and the third outputs of the fourth th komkommutatora connected respectively with the fourth, fifth and sixth inputs of the third switch, and the control inputs of the first, fourth and second switches are respectively for supplying pulses of line and frame frequencies. Sources of information taken into account in the examination 1. USSR author's certificate 513534, cl. H 04 N 7/08, 1974 (prototype).